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Chapter 13: Gas Laws

Chapter 13: Gas Laws. Gases. Phases of matter. Gases. Liquids. ~are the most random. Molecules fly around randomly with large spaces in between them . Solids. ~are more random than solids. The molecules flow around one another, and are scattered about more. ~tend to

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Chapter 13: Gas Laws

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  1. Chapter 13: Gas Laws Gases

  2. Phases of matter Gases Liquids ~are the most random. Molecules fly around randomly with large spaces in between them. Solids ~are more random than solids. The molecules flow around one another, and are scattered about more. ~tend to be the most compact and orderly. The atoms only vibrate! Volume- amount of space something takes up.

  3. Density of phases • Density is mass per volume. • For the diagrams, all phases had the same number of molecules, therefore the same mass (mass is the amount of matter present). • Gases tend to have the most volume, liquids less and solids have the least. • Therefore solids tend to be most dense, liquids less and gases the least.

  4. Gases float on everything • Gases are less dense than other phases so buoyant forces make them float. • Gases do have mass (and weight) though. • Gases are not weightless! • Helium is lighter than air (nitrogen/oxygen mix), but it still has a weight! • Think of a full propane tank (gas grill) compared to an empty tank. • The same applies to a helium tank. A full tank is heavier than an empty tank.

  5. Exception to the rule • Water actually is most dense at 4o C (water), ice is less dense than water. • Hydrogen bonding pulls everything in tighter when it is a liquid. • Buoyant forces make things less dense float on things that are more dense. • Ice floats on water.

  6. Gases exert a pressure • Pressure is the force per unit of area. • Since gas molecules fly around randomly, they run into things. • Each time they hit something they apply a force. • More times they hit the more force (therefore the more pressure) they apply.

  7. Kinetic Energy • Kinetic energy is ½ mass (velocity)2 • The average kinetic energy is temperature. • The sum of KE is the heat energy. • The more heat energy present the faster these are moving. • The faster they are moving the harder they will hit.

  8. Pressure

  9. Atmospheric Pressure • ~pressure caused by the atmosphere. • Atmospheric pressure squeezes on everything from every direction and attempts to fill in empty spaces. • If you have less pressure inside something and more pressure outside, the outside pressure will squeeze it. • It could implode depending on the strength of the wall. The reverse is also true.

  10. Gases can be compressed • Neither solids nor liquids can be compressed (squeezed to a smaller size) but gases can be easily compressed. • It can be done with an air pump (into a bike tire or basketball or anything that is inflatable. • If the compression force is larger than the force (pressure) of the gas, it can be made smaller. • The reverse is also true.

  11. H is high pressure L is low pressure If the walls are weak enough… H L L H H H L L H L

  12. H is high pressure L is low pressure It could implode Or explode H L L H H H L L H L

  13. Volume and Pressure • If you seal a container and decrease the volume (squeeze it) the pressure inside will • increase. • If you increase the volume the pressure will decrease. • This is Boyle’s Law • The volume of a gas is inversely proportional to the pressure of the gas. • Standard pressure is 101 kPa or 29.9 inches of mercury (Hg)

  14. Other units of Pressure

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